CN212199531U - Polyester composite yarn production equipment - Google Patents

Abstract

The utility model discloses a polyester composite yarn production device, which comprises a device frame, a raw silk frame, a deformation hot box and a winding roller, wherein the device frame is a door-shaped frame structure consisting of a left frame, a right frame and a top frame, the raw silk frame is arranged on the right side of the device frame, a filament cutter is arranged on the end surface of the right side of the right frame, a raw head rod frame, a first feeding roller and a zero feeding roller are sequentially arranged on the end surface of the left side of the right frame from top to bottom, the deformation hot box is fixedly arranged above the top frame, a plurality of cooling plates are connected below the deformation hot box, a false twister, a second feeding roller, a setting hot box, a network nozzle, a third feeding roller and an oiling system are sequentially arranged on the right side of the left frame from top to bottom, the utility model has reasonable structural design, can realize the whole process of feeding materials in different routes of double lines and finally merging into composite yarns when yarns are, greatly reduces the equipment and labor input and reduces the production cost of the composite yarn.

Description

Polyester composite yarn production equipment

Technical Field

The utility model belongs to the technical field of chemical fiber production facility technique and specifically relates to a polyester composite yarn production facility is related to.

Background

The regenerated high-shrinkage polyester composite yarn is a yarn with a high-shrinkage wrinkling effect, and is characterized in that the regenerated high-shrinkage polyester composite yarn is woven by adopting two strands of yarns with different shrinkages (one is regenerated high-shrinkage FDY, and the other is common regenerated polyester yarn or regenerated cation), the cloth cover is wrinkled due to different tightness shrinkage of yarn combination caused by different nozzles and overfeeding, the finished fabric is endowed with concave-convex feeling, the regenerated high-shrinkage polyester or regenerated cation composite yarn can be used for wool spinning, yarn weaving and knitting products, and an attractive and practical environment-friendly product can be obtained by skillful weaving and design after post-processing, and the regenerated high-shrinkage polyester composite yarn has a new style of soft suspension, soft luster, double-color flashing and concave-convex wrinkling,

the existing composite yarn production process is to combine and combine high-shrinkage FDY and regenerated polyester or regenerated cation DTY together on a net combining machine to form the high-shrinkage polyester composite yarn, which needs to invest manpower, material resources (net combining machine), field and machine material consumption again after elastication to produce the composite yarn, and has low production efficiency (generally, the net combining speed is lower than 400M/min), various yarns are in a free state, the tension control difficulty is high, the requirement on the net combining pressure is high, and the energy waste is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a polyester composite yarn production facility.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a polyester composite yarn production device comprises a device rack, a raw yarn frame, a texturing hot box and a winding roller, wherein the device rack is of a door-shaped frame structure consisting of a left frame, a right frame and a top frame, the raw yarn frame is arranged on the right side of the device rack and is used for supplying yarn for spinning cakes, a yarn cutter is arranged on the right side end face of the right frame, a first feeding roller, a zero feeding roller and a spinning rod frame are arranged on the left side end face of the right frame, the spinning rod frame, the first feeding roller and the zero feeding roller are sequentially arranged from top to bottom, the texturing hot box is fixedly arranged above the top frame, the upper end of the texturing hot box is connected with the upper end of the spinning rod frame, a plurality of cooling plates are connected below the texturing hot box, a false twister, a second roller, a sizing hot box, a network nozzle, a third feeding roller and an oiling system are sequentially arranged on the right side face of the left frame from top, and the plurality of winding rollers are arranged on the end face of the side of the shaping hot box.

A plurality of spinning cake inserting rods are arranged in the raw silk frame, and a plurality of raw silk tubes are fixedly mounted at the upper end of the raw silk frame.

The novel spinning-head device is characterized in that a spinning-head rod thread guide is installed on the spinning-head rod frame, the cooling plates are connected and fixed through a cooling plate fixing cross beam, a plurality of cooling plate cross beam thread guides are installed on the cooling plate fixing cross beam, and the installation positions of the cooling plate cross beam thread guides correspond to the spinning-head rod thread guides.

The hot case upper cover plate is equipped with to design hot case upper end, be equipped with first seal wire mouth, second seal wire mouth on the hot case upper cover plate, fixed mounting has external seal wire pipe on the hot case lateral wall of design, design hot case lower extreme is equipped with out the silk mouth, first seal wire mouth link up hot case upper cover plate and design hot case up end, first seal wire mouth position is corresponding with a silk mouth, second seal wire mouth link up hot case upper cover plate, second seal wire mouth sets up the position and is corresponding with external seal wire pipe.

The utility model has the advantages that: the utility model has the advantages of reasonable design, can realize the overall process that the different routes of double-line fed and finally merge into compound silk when the yarn adds the bullet, be different from traditional double-line to special net machine and carry out the process flow of doubling again after adding the bullet, improved production efficiency, the equipment that has significantly reduced and human input, reduced compound silk manufacturing cost.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a schematic view of the installation position of the cooling plate beam thread guide of the present invention;

fig. 3 is the schematic view of the mounting structure of each component on the left frame of the equipment rack of the present invention.

In the figure: the device comprises an equipment rack 1, a left frame 101, a right frame 102, a top frame 103, a raw silk frame 2, a silk cake inserting rod 21, a raw silk tube 22, a filament cutter 3, a first feeding roller 4, a zero feeding roller 5, a raw silk rod frame 6, a raw silk rod guide 61, a texturing hot box 7, a cooling plate 8, a cooling plate fixing cross beam 81, a cooling plate cross beam guide 82, a false twister 9, a second feeding roller 10, a sizing hot box 11, a hot box upper cover plate 111, a first silk guide opening 112, a second silk guide opening 113, an external pipe 114, a silk outlet opening 115, a network nozzle 12, a third feeding roller 13, an oiling system 14, a winding roller 15, a first raw silk 16, a second raw silk 17, a composite silk 18 and a raw silk cake 19.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments, wherein the descriptions of "left", "right", etc. in the present invention all refer to fig. 1 as the reference direction:

as shown in fig. 1 to 3, a polyester composite yarn production device comprises a device frame 1, a raw silk frame 2, a texturing heat box 7 and a winding roller 15, wherein the device frame 1 is a door-shaped frame structure consisting of a left frame 101, a right frame 102 and a top frame 103, the raw silk frame 2 is arranged on the right side of the device frame 1 and is used for supplying yarn cakes, a filament cutter 3 is arranged on the end surface of the right side of the right frame 102, the filament cutter 3 is used for closing the feeding of the filament and cutting off the yarn when in operation failure, a first feeding roller 4, a zero feeding roller 5 and a yarn feeding rod frame 6 are arranged on the end surface of the left side of the right frame 102, the yarn feeding rod frame 6, the first feeding roller 4 and the zero feeding roller 5 are sequentially arranged from top to bottom, the texturing heat box 7 is fixedly arranged above the top frame 103, the upper end of the texturing heat box 7 is connected with the upper end of the yarn feeding rod frame 6, a plurality of cooling plates 8 are connected below the texturing heat box, the cooling plate 8 gradually cools the yarns from the texturing hot box 7 in the conveying process, the right side surface of the left frame 101 is sequentially provided with a false twister 9, a second feeding roller 10, a shaping hot box 11, a network nozzle 12, a third feeding roller 13 and an oiling system 14 from top to bottom, a plurality of winding rollers 15 are arranged on the side end surface of the shaping hot box 11, the false twister 9 enables the yarns to be false-twisted and textured, the shaping hot box 11 is used for heating and shaping the yarns, the network nozzle 12 meshes the yarns into composite yarns, and the oiling system 14 oils the finished composite yarns to improve the processability of the finished composite yarns in subsequent textile processing.

A plurality of spinning cake inserting rods 21 are arranged in the raw silk frame 2, raw silk cakes 19 are inserted into the spinning cake inserting rods 21, a plurality of raw silk pipes 22 are fixedly arranged at the upper end of the raw silk frame 2, and yarns are led out from the raw silk pipes 22.

The spinning-in rod guide 61 is installed on the spinning-in rod frame 6, the cooling plates 8 are connected and fixed through the cooling plate fixing cross beam 81, the cooling plate fixing cross beam 81 is provided with the cooling plate cross beam guide 82, and the installation position of the cooling plate cross beam guide 82 corresponds to the spinning-in rod guide 61.

The upper end of the shaping hot box 11 is provided with a hot box upper cover plate 111, the hot box upper cover plate 111 is provided with a first silk guide port 112 and a second silk guide port 113, the outer side wall of the shaping hot box 11 is fixedly provided with an external silk guide pipe 114, the lower end of the shaping hot box 11 is provided with a silk outlet 115, the first silk guide port 112 penetrates through the hot box upper cover plate 111 and the upper end surface of the shaping hot box 11, the first silk guide port 112 corresponds to the silk outlet 115 in position, the second silk guide port 113 penetrates through the hot box upper cover plate 111, the second silk guide port 113 corresponds to the external silk guide pipe 114 in position, the first protofilament 16 passes through the shaping hot box 11, and the second protofilament 17 passes through the external silk guide pipe 114 through the second silk guide port 113.

In the production process, a first protofilament 16 (regenerated cation POY) and a second protofilament 17 (regenerated high shrinkage FDY) are respectively fed in two ways, and the wire inlet circuit of the first protofilament 16 is as follows: the spinning frame 2, the spinning pipe 22, the filament cutter 3, the first feeding roller 4, the spinning rod frame 6, the deformation hot box 7, the cooling plate 8, the false twister 9, the second feeding roller 10, the shaping hot box 11, the second spinning 17 (the second spinning FDY) is the formed high-shrinkage filament, the heating shaping is not needed any more, and the yarn inlet path of the second spinning 17 is as follows: the raw silk frame 2, the raw silk tube 22, the filament cutter 3, the zero-feeding roller 5, the raw silk rod filament guide 61, the cooling plate beam filament guide 82 and the external filament guide tube 114, the first raw silk 16 comes out from the shaping hot box 11, simultaneously second precursor 17 comes out from external godet 114, and first precursor 16, second precursor 17 doubling get into network nozzle 12 simultaneously and go on down the net and merge into composite filament 18, and composite filament 18 after the combination gets into third feeding roller 13, oils through oiling system 14 again, and at last to the finished product spinning cake of coiling roller 15 coiling, the utility model discloses a directly accomplish the demand of carrying out compound operation to the yarn of different style characteristics on the equipment that elasticizes, be different from traditional double-line and go on the process flow that the doubling was carried out to special doubling machine after elasticizes, improved production efficiency, greatly reduced equipment and human input, reduced composite filament manufacturing cost.

The above description is only for the preferred embodiment of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (4)

1. The utility model provides a compound silk production facility of dacron, includes equipment frame (1), former creel (2), warp hot box (7), winding roller (15), its characterized in that: the equipment frame (1) is a door-shaped frame structure consisting of a left frame (101), a right frame (102) and a top frame (103), the raw silk frame (2) is installed on the right side of the equipment frame (1) and is used for supplying silk cakes, the filament cutter (3) is installed on the right side end face of the right frame (102), a first feeding roller (4), a zero feeding roller (5) and a spinning rod frame (6) are installed on the left side end face of the right frame (102), the spinning rod frame (6), the first feeding roller (4) and the zero feeding roller (5) are installed from top to bottom in sequence, the deformation heat box (7) is fixedly installed above the top frame (103), the upper end of the deformation heat box (7) is connected with the upper end of the spinning rod frame (6), a plurality of cooling plates (8) are connected below the deformation heat box (7), and the false twister (9) is installed on the right side face of the left frame (101) from top to bottom in sequence, The device comprises a second feeding roller (10), a shaping hot box (11), a network nozzle (12), a third feeding roller (13) and an oiling system (14), wherein a plurality of winding rollers (15) are arranged on the side end face of the shaping hot box (11).

2. The polyester composite yarn production equipment as claimed in claim 1, wherein: a plurality of spinning cake inserting rods (21) are arranged in the raw silk frame (2), and a plurality of raw silk tubes (22) are fixedly mounted at the upper end of the raw silk frame (2).

3. The polyester composite yarn production equipment as claimed in claim 1, wherein: install on the pole frame of spinning-in (6) and spin-in pole seal wire ware (61), a plurality of cooling plate (8) link to each other fixedly through cooling plate fixed cross beam (81), install a plurality of cooling plate crossbeam seal wire ware (82) on cooling plate fixed cross beam (81), cooling plate crossbeam seal wire ware (82) mounted position is corresponding with spinning-in pole seal wire ware (61).

4. The polyester composite yarn production equipment as claimed in claim 1, wherein: hot case upper cover plate (111) is equipped with to design hot case (11) upper end, be equipped with first wire guide mouth (112), second wire guide mouth (113) on hot case upper cover plate (111), fixed mounting has external silk guide pipe (114) on design hot case (11) lateral wall, design hot case (11) lower extreme is equipped with out silk mouth (115), first wire guide mouth (112) link up hot case upper cover plate (111) and design hot case (11) up end, first wire guide mouth (112) position is corresponding with silk guide mouth (115), second wire guide mouth (113) link up hot case upper cover plate (111), second wire guide mouth (113) set up the position and are corresponding with external silk guide pipe (114).

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